The relevance of this study is related to the fact that the necessity of compliance between the professional education system and progressive tendencies of world economy development demanded the formation of a new generation of economically socialized engineering and technical specialists, who own a sufficient level of economic competences, that will allow successful integration into the socio-economic environment.The purpose of the paper is to create the scientific basis of content, structure clarifying, creating and implementation the pedagogical conditions of students' economic socialization, considered as a process and the result of individual inclusion into the system of socio-economic relations in the society.The leading method of studying this problem is the project method, allowing to design a system of economic socialization of students on the basis of the relationship between the essential characteristics of the process of economic socialization, identified by socializing potential of the educational environment in technological university and transformative actions for realizing this potential to achieve the goals and objectives of the students' economic socialization.In the paper it is determined that the pedagogical activity on the designing of economic socialization system includes the following stages: the first (preliminary) stage involves planning of educational activities for the realization the target component of underway project (diagnosis, promotion of ideas, identification of goals and objectives of economic socialization, expected outcomes and the criteria for their evaluation), and, ultimately, development of the project. The second stage of the design is the project realization phase including the content, activity and * Corresponding author E-mail addresses: rimmanet58@mail.ru (R.M. Shaidullina), amirov.af@yandex.ru (A.F. Amirov), vsh@of.ugntu.ru (V.S. Muhametshin), academic-mvd@mail.ru (K.T. Tyncherov) European Journal of Contemporary Education, 2017, 6(1) 150 technological components of the educational process. Third (reflective) stage includes analytical, corrective and remodeling aspects of pedagogical activity.The data from this paper have practical value in designing of economic socialization systems for future engineers, prove the causal dynamic nature of searching and the improvement of the educational process and offer opportunities to apply our approach to design educational systems in technological universities.
The paper considers the issue of increasing the reliability of the borehole telemetry information. The issue is suggested to be solved by applying the code of nonpositional residue number system instead of a traditionally used positional number notation to code the information. The residue number system is shown to have the best error-correcting capacities and is able both to detect the errors and correct them.Key words: oil wells; telemetry information, coding, residue number system, error-correcting capacities, error detection, error correction.Brief outline: 1)Reception and processing of telemetry information from the oil wells equipped with bottom-hole pumps are connected with low reliability of the wireless transmitted signals;2) Actual information coding methods based on a traditional positional number notation can not completely correct the errors occurred during digital processing of the signals;3) The nonpositional residue number system has better potential both to detect and to correct the errors. 4)The application of the residue number system increases the reliability of the telemetry information transmission from the oil wells equipped with the bottom-hole pumps.The transmission of the telemetry borehole information to the surface is one of the most crucial questions in carrying out the hydrodynamic analysis of the oil wells equipped with the bottom-hole pumps.
The purpose of the paper is the substantiation of the application of the oil coning technology in the process of the hydrodynamic simulation of the successive method, which includes the perforation of the casing below the level of oil-water contact; the drawing of water from the lower water-saturated part of the reservoir; the isolation of this perforation interval; the drilling-in of the near-caprock oil-saturated part of the reservoir and the production of near-caprock oil. The leading approach to the research of this problem is the method of filtration modeling of the oil and water coning processes in the reservoir. As a result of the study, a hydrodynamic model of a well has been created, which corresponds to the requirements of the visualization of the process, the authenticity and the possibility to control the necessary parameters of the model and to estimate the effectiveness of the technology.
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